DOCSLIB.ORG

Bowen Li, Phd

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Bowen Li, Phd Curricular Vitae Bowen Li, PhD Department of Material Science & Engineering Email: [email protected] Michigan Technological University Phone: (906) 487-4325 1400 Townsend Drive Cell Phone: (906) 281-7082 Houghton, MI 49931 EDUCATION PhD, Materials Science and Engineering, Michigan Technological University, USA, 2008 PhD, Mineralogy and Industrial Petrology, China University of Geosciences, Beijing, China, 1998 MS, Mineralogy and Industrial Petrology (emphasis on ceramics), China University of Geosciences, Beijing, China, 1992 BS, Geology and Mineral Resources, Xian Geology Institute, China, 1983 RESEARCH EXPERIENCE Michigan Technological University Dept. Materials Science & Engineering, Houghton, MI Research Professor, 7/2016-present Research Associate Professor, 7/2012-6/2016 Research Assistant Professor, 12/2008-6/2012 QTEK LLC, Chassell, MI President and CTO, 9/2009-present Wuhan Iron and Steel (Group) Corp. Center for Advanced Materials, Beijing, China Senior Scientist/Project Leader (Adjunct), 11/2013-12/2016 Wyo-Ben, Inc. Billings, MT Advisory-China Market Initiative, 11/2011-5/2015 Michigan Technological University Dept. Materials Science & Engineering, Houghton, MI Research Assistant, 8/2004-12/2008 Michigan Technological University Dept. Geological and Mining Science and Engineering/Institute of Materials Processing, Houghton, MI Research Assistant, 7/2002-8/2004 China University of Geosciences (Beijing) School of Materials Science, China Associate Dean, 8/1995-3/2003 (Interim Dean, 11/2001-7/2002) Associate Professor, 12/1995-3/2003 Assistant Professor, 6/1992-12/1995 UP Steel, Houghton, MI Engineer (Adjunct), 2/2009-6/2009 State Key Laboratory for Fine Ceramics and Process/Tangshan Ceramics Group Tsinghua University, Beijing, China Research Fellow (adjunct), 9/1999-5/2002 CV_ Bowen Li, Nov. 2017 1 Jiuquan Geology & Mineral Resources Company, Jiuquan, China Geology Engineer (Certificated)/Team Leader/Vice President, 7/1983-9/1989 SELECTED PUBLICATIONS a) Referred Publications/Proceedings 1. B. Li, M. He, C. Li. Characteristics of WISCO Steelmaking Slags. Characterization of Minerals, Metals, and Materials 2018. New York: Springer International Publishing AG, 2018 (In Press). 2. B. Li. Perlite. Mining Engineering, 2017, v69, No.7, pp75-76. (Invited). 3. B. Li, M. He, H. Wang. Phase Transformation of Andalusite-Mullite and Its Roles to Microstructure and Sinterability of Refractory Ceramic. Metallurgical & Materials Transaction A, 2017, 2017, 48(7), 3188-3192. 4. Y. Zhang, J.Y. Hwang, Z. Peng, M. Andriese, B. Li, X Huang, X. Wang, X. Yan. Penetration depth of Microwave in Tire Rubber. Proceedings of 8th International Symposium on High Temperature Metallurgical Processing. Springer, New York, pp403-410. 5. H. Wang, B. Li, M. He, J.Y. Hwang. Mullitization Characteristics and Sinterability of Kyanite in Ceramic Preparation. Characterization of Minerals, Metals, and Materials 2017. New York: Spinger, International Publishing AG, pp251-259. 6. B. Li, M. He, J.Y. Hwang, W. Gan. Characteristics of anorthite-pyroxene ceramics made from hot- poured steelmaking slag. JOM, 2017, 69(2): 173-177. 7. B. Li. Perlite. Mining Engineering, 2016, V68, No.7, pp62-63. (Invited) 8. Y. Zhang, J.Y. Hwang, Z. Peng, M. Andriese, B. Li, X. Huang, X. Wang, and L. Li. Microwave Heating of Waste Tires. Proceedings of 7th International Symposium on High-Temperature Metallurgical Processing. John Wiley & Sons, Inc. Hoboken, New Jersey, 2016, p551-558 9. B. Li, M. He, J. Y. Hwang, W. Gan. Synthesis and Characteristics of Anorthite Ceramics from Steelmaking Slag. Characterization of Minerals, Metals, and Materials 2016. John Wiley & Sons, Inc. New Jersey, 2016, p263-269. 10. Q. Lu, B. Li. Electrical Effect and Influence Factors of Tourmaline. Characterization of Minerals, Metals, and Materials 2016. John Wiley & Sons, Inc. New Jersey, 2016, p83-89. 11. B. Li. Perlite. Mining Engineering, 2015, V67, No.7, pp75-76. 12. M. Wang, B Li. A Novel Technology of Vanadium Extraction from Stone Coal, Rare Metal Technology. John Wiley & Sons, Inc. New Jersey, 2015, p.187-192. 13. Y. Zhang, J.-Y. Hwang, Z. Peng, M. Andriese, B. Li, X. Huang, X. Wang, Microwave Abosorption Characteristics of Tire. Characterization of Minerals, Metals, and Materials 2015. Published by John Wiley & Sons, Inc. New Jersey, 2015, p235-243. 14. M. Wang, P. Xian, X. Wang, and B. Li, Extraction of Vanadium from Stone Coal by Microwave Assisted Sulphation Roasting, JOM, 2015, v67, p369-374. 15. M. Ogwuegbu, G. Onyedika, K. Onwukamike, and B. Li. Differential Characterization of Ikperejere Iron Shale and Iron Sandstone. Characterization of Minerals, Metals, and Materials 2014. John Wiley & Sons, Inc. New Jersey, 2014, p401-411. 16. C. Vogt, Q. Xing, W. He, B. Li, M. Frost, F. Zhao. Nitric Oxide-Releasing Gelatin Nanofiber Matrix as a Potential Antibacterial Wound Dressing. Biomacromolecules, 2013, 14 (8), pp 2521–2530. 17. M. Andriese, J. Y. Hwang, Z. Peng, B. Li. Chemical Enrichment of Precious Metals in Iron Sulfides Using Microwave Energy. 4th International Symposium on High-Temperature Metallurgical Processing, John Wiley & Sons, Inc., Hoboken, NJ, USA. Feb. 2013. p623-629. 18. J. Drelich, B. Li, B. Villeneuve, and P. Bowen. Inexpensive Mineral-Copper Materials with Antibacterial Surfaces. Surface Innovations, 2013, 1(1):15-26. 19. J. Drelich and B. Li. Inexpensive Mineral-based Antibacterial Materials with Infused Copper. Proceedings of Annual International Conference on Materials Science, Metal & Manufacturing, December 12-13, 2011, Singapore, p1-6 (Invited). CV_ Bowen Li, Nov. 2017 2 20. J. Drelich, B. Li, P. Bowen, J. Y. Hwang, O. Mills, D. Hoffman. Vermiculite decorated with copper nanoparticles: Novel antibacterial hybrid material, Applied Surface Science, 2011, 257 (22): 9435– 9443. 21. B. Li, J. Y. Hwang, J. Drelich, D. Popko, and S. Bagley. Physical, Chemical and Antimicrobial Characterization of Copper-bearing Material. JOM, 2010, 12: 80-85. 22. P. Shang, R. Zhao, M. Ji, B. Li. Removal of Ammonia Nitrogen from Rainwater by Modified Fly Ash and Zeolite. Proceedings of 2010 SME Annual Meeting, p1-5. 23. X. Sun, J. Y. Hwang, X. Huang, and B. Li. Petroleum Coke Particle Size Effects on the Treatment of EAF Dust through Microwave Heating. Journal of Minerals & Materials Characterization & Engineering, 2009, 8 (4): 249-259 24. Z. Xu, J. Y. Hwang, B. Li, X. Huang, and H. Wang. The Characterization of Various ZnO Nanostructures Using Field Emission SEM. JOM, 2008, 60 (4):28-32 25. M. He, Jianbao Li, B. Li, et al. Preparation of porous wollastonite ceramics for filtration. Key Engineering Materials, 2007, 337: 1102-1104 26. L. Liao, Z. Bai, B. Li, Y. Song, Y. Cui. Models of Teaching Management for School and Department. Higher Education of Sciences, 2006(5): 136-138 27. X. Sun, J. Y. Hwang, X. Huang, B. Li, S. Shi. Effects of microwave on molten metals with low melting temperatures. J. of Minerals & Materials Characterization & Engineering, 2005, 4(2):107- 112 28. B. Li, J. Y. Hwang, S. Yu. Storing capacity of copper ions in vermiculite and its relation to the preparation conditions. JOM, 2004, 56(11), 339. 29. S. Shi, J. Y. Hwang, B. Li, X. Huang. Investigation into the sintering of magnesium fluoride optical material by microwave. J. of Minerals & Materials Characterization & Engineering, 2004, 3(2):105- 108 30. Y. Kang, A. Lu, P. Zhou, B. Li, J. Li. Mineralogical properties of clay in Liulitun Sanitary Landfill, Beijing and its absorption capability against benzene. China Non-metallic Mining Industry Herald, 2004,(1): 34-37. 31. Y. Kang, A. Lu, P. Zhou, B. Li, J. Li, Y. Wu, M. Li. Adsorptive results of clay minerals against organic compounds in Liulitun Sanitary Landfill. China Non-metallic Mining Industry Herald, 2003,(2): 42-44. 32. X. Wang, P. Zhou, B. Li, H. Yu. Preparation and characterization of polystyrene/kaolinite nanocomposites. Journal of the Chinese Ceramic Society, 2003, 31(10): 955-958, +964. 33. Y. Huang, B. Li, M. He, F. Du, J. Chen. Porous calcium silicate ceramics synthesized by perlite tailings. Bulletin of Chinese Ceramic Society, 2003, 22(3): 85-87. 34. B. Li, S. Yu, J. Y Hwang, S. Shi. Antibacterial vermiculite nano- material. Journal of Minerals & Materials Characterization & Engineering, 2002, (1): 61-68 35. D. Xu, G. Gai, B. Li. Processing and utilization of natural brucite. China Powder Technology, 2002, (8): 4-6 36. G. Song, T. Peng, P. Wan, B. Li. Study on colorimetry of TiO2-Muscovite nanocomposite. Acta Physica Sinica, 2002,51(7): 1575-1580 37. G. Song, T. Peng, P. Wan, B. Li. Preparation of TiO2-Muscovite nanocomposite and its surface chemical features. Acta Mineralogica Sinica, 2002, 22(1):1-8 38. G. Song, P. Wan, T. Peng, B. Li. Elementary introduction of nanosciences and nanotechnology. Journal of Southwest China Institute of Technology, 2002,17(1): 75-78 39. F. Hu, H. Cheng, F. Yang, G. Zheng, Z. Zheng, B. Li. Preparation of Ag-carried antibacterial agent by using palygorskite as carrier. Modern Chemical Engineering, (2001), 21(6): 35-37. 40. B. Li, Y. Song and L. Liao, Internet resources for mineralogy education, China geology education, 2002, (1): 80-82. 41. B. Li, S. Yu, A. Lu, and P. Wan. Modes of occurrence of Cu2+ in the Cu-vermiculite antimicrobial agent. Acta Petrologica et Minerlogica, 2001,20(4): 495-499, 503 42. B. Li, R. Wen, N. Wang, J. Li. Mullite Refractory Ceramic Made from Andalusite and Al2O3. Journal of Wuhan University of Technology, Materials Science Edition, 2001, 16(2): 44-46. 43. B. Li, M. He and J. Li. Prospect for mineral materials. China Building Materials, 2001, (6): 72-74. CV_ Bowen Li, Nov. 2017 3 44. Y. Fu, P. Wan, B. Li, T. Peng. Study on the disposing of waste water with Cr6+ using organized bentonite. Journal of Southwest China Institute of Technology, 2001,16(2): 65-69 45. W. Liu, B. Li, B. Pan, Y. Liu. Characteristics of deformation during Mesozonic Era in the Chaohu- Chuzhou Region, Anhui Province. Geoscience, 2001, 15(1): 13-20 46.
Load more

Recommended publications
  • Download the Major Players in the Potato Industry in China Report
    Potential Opportunities for Potato Industry’s Development in China Based on Selected Companies Final Report March 2018 Submitted to: World Potato Congress, Inc. (WPC) Submitted by: CIP-China Center for Asia Pacific (CCCAP) Potential Opportunities for Potato Industry’s Development in China Based on Selected Companies Final Report March 2018 Huaiyu Wang School of Management and Economics, Beijing Institute of Technology 5 South Zhongguancun, Haidian District Beijing 100081, P.R. China [email protected] Junhong Qin Post-doctoral fellow Institute of Vegetables and Flowers Chinese Academy of Agricultural Sciences 12 Zhongguancun South Street Beijing 100081, P.R. China Ying Liu School of Management and Economics, Beijing Institute of Technology 5 South Zhongguancun, Haidian District Beijing 100081, P.R. China Xi Hu School of Management and Economics, Beijing Institute of Technology 5 South Zhongguancun, Haidian District Beijing 100081, P.R. China Alberto Maurer (*) Chief Scientist CIP-China Center for Asia Pacific (CCCAP) Room 709, Pan Pacific Plaza, A12 Zhongguancun South Street Beijing, P.R. China [email protected] (*) Corresponding author TABLE OF CONTENTS Executive Summary ................................................................................................................................... ii Introduction ................................................................................................................................................ 1 1. The Development of Potato Production in China .......................................................................
    [Show full text]
  • Invest Model-Based Spatiotemporal Analysis of Water Supply Services in the Zhangcheng District
    Article InVEST Model-Based Spatiotemporal Analysis of Water Supply Services in the Zhangcheng District Run Liu 1,2,3, Xiang Niu 1,2,3,*, Bing Wang 1,2,3 and Qingfeng Song 1,2,3 1 Research Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, China; [email protected] (R.L.); [email protected] (B.W.); [email protected] (Q.S.) 2 Key Laboratory of Forest Ecology and Environment, State Forestry and Grassland Administration, Beijing 100091, China 3 Dagangshan National Key Field Observation and Research Station for Forest Ecosystem, Xinyu 338033, China * Correspondence: [email protected]; Tel.: +86-10-6288-9334 Abstract: The Zhangcheng District is critically responsible for protecting water resources, preserving sand sources, and improving the ecological environment in Beijing. Quantitative evaluation and research on the ecosystem water supply services in this area are beneficial for developing conservation planning and establishing ecological compensation mechanisms in water conservation areas. In this paper, based on the land use, meteorological, soil, and field observation data of the research area, the InVEST water yield model is used to estimate the water supply of the ecosystem in the Zhangcheng District. The model quantitatively analyzes the spatiotemporal distribution characteristics of water supply services in the basin and the influence of different topographic factors. The results show that the average supply of ecosystem water in the Zhangcheng District is approximately 45 mm, and there is a degree of spatial heterogeneity. The total water supply in the Zhangcheng District is relatively small. The water resource supply in the southwest is relatively small, the rainfall in mountainous Citation: Liu, R.; Niu, X.; Wang, B.; forest areas in the southeast is high, its water supply is higher, and the supply of forest land water is ◦ ◦ Song, Q.
    [Show full text]
  • Exploring the Dynamic Spatio-Temporal Correlations Between PM2.5 Emissions from Different Sources and Urban Expansion in Beijing-Tianjin-Hebei Region
    Article Exploring the Dynamic Spatio-Temporal Correlations between PM2.5 Emissions from Different Sources and Urban Expansion in Beijing-Tianjin-Hebei Region Shen Zhao 1,2 and Yong Xu 1,2,* 1 Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China; [email protected] 2 College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 100049, China * Correspondence: [email protected] Abstract: Due to rapid urbanization globally more people live in urban areas and, simultaneously, more people are exposed to the threat of environmental pollution. Taking PM2.5 emission data as the intermediate link to explore the correlation between corresponding sectors behind various PM2.5 emission sources and urban expansion in the process of urbanization, and formulating effective policies, have become major issues. In this paper, based on long temporal coverage and high- quality nighttime light data seen from the top of the atmosphere and recently compiled PM2.5 emissions data from different sources (transportation, residential and commercial, industry, energy production, deforestation and wildfire, and agriculture), we built an advanced Bayesian spatio- temporal autoregressive model and a local regression model to quantitatively analyze the correlation between PM2.5 emissions from different sources and urban expansion in the Beijing-Tianjin-Hebei region. Our results suggest that the overall urban expansion in the study area maintained gradual growth from 1995 to 2014, with the fastest growth rate during 2005 to 2010; the urban expansion maintained a significant positive correlation with PM2.5 emissions from transportation, energy Citation: Zhao, S.; Xu, Y.
    [Show full text]
  • An Introduction to Temporal-Geographic Information Systems (TGIS) for Assessing, Monitoring and Modelling Regional Water and Soil Processes
    Spatial information systems 16 An Introduction to Temporal-Geographic Information Systems (TGIS) for Assessing, Monitoring and Modelling Regional Water and Soil Processes Tim R. McVicar* Phil J. Davies†, Yang Qinke‡ and Guanglu Zhang§ Abstract In this chapter we introduce the concept of temporal-geographic information systems (TGIS). We first describe some nontemporal concepts of GIS, consider the issues of scale and of continuous and discrete data, and give a brief background to the basis of remote sensing measurements. Using the concept of the ‘data construct’ as a tool for understanding TGIS data structures, we explain the relationship between characteristics (extent, resolution and density) and domains (attribute, spatial and temporal) of each dataset. Finally, we discuss two emerging issues in TGIS: the assessment of spatial–temporal accuracy and uncertainty, and the use of metadata systems. * CSIRO Land and Water, PO Box 1666, Canberra 2601, Australia. Email: [email protected] † CSIRO Land and Water, PMB 2, Glen Osmond, SA 5064, Australia. ‡ Institute of Soil and Water Conservation, Chinese Academy of Sciences and Ministry of Water Resources, No. 26 Xinong Road, Yang Ling, Shaanxi Province, 712100, PRC. § Chinese Academy of Sciences, Shijiazhuang Institute of Agricultural Modernisation, PO Box 185, Shijiazhuang 050021, PRC. McVicar, T.R., Davies, P.J., Yang Qinke and Guanglu Zhang. 2002. An introduction to temporal-geographic information systems (TGIS) for assess- ing, monitoring and modelling regional water and soil processes. In: McVicar, T.R., Li Rui, Walker, J., Fitzpatrick, R.W. and Liu Changming (eds), Regional Water and Soil Assessment for Managing Sustainable Agriculture in China and Australia, ACIAR Monograph No.
    [Show full text]
  • Minimum Wage Standards in China August 11, 2020
    Minimum Wage Standards in China August 11, 2020 Contents Heilongjiang ................................................................................................................................................. 3 Jilin ............................................................................................................................................................... 3 Liaoning ........................................................................................................................................................ 4 Inner Mongolia Autonomous Region ........................................................................................................... 7 Beijing......................................................................................................................................................... 10 Hebei ........................................................................................................................................................... 11 Henan .......................................................................................................................................................... 13 Shandong .................................................................................................................................................... 14 Shanxi ......................................................................................................................................................... 16 Shaanxi ......................................................................................................................................................
    [Show full text]
  • China Unicom Corporate Social Responsibility Report 2015
    )NOTG;TOIUS )UXVUXGZK9UIOGR8KYVUTYOHOROZ_ 8KVUXZ /SVRKSKTZOTM4K]/JKGYZU)USVUYK'4K])NGVZKX 'JJ 4U,OTGTIOGR9ZXKKZ>OINKTM*OYZXOIZ(KOPOTM NZZV ]]]INOTG[TOIUSIUS Contents Coordinated Development and Report Description 02 Cooperative Operation 39 Common Development in China and Abroad 40 Message from the Chairman 03 Boost Regional Coordination 43 Bridge Digital Divide 44 )NOTG;TOIUS)UXVUXGZK9UIOGR8KYVUTYOHOROZ_8KVUXZ Purify Network Environment 45 )NOTG;TOIUS)UXVUXGZK9UIOGR8KYVUTYOHOROZ_8KVUXZ Corporate Profile 04 Corporate Governance 04 Shareholding Structure 06 Development in a Green and Development Strategy 06 Environment-Friendly Manner 46 Organizational Structure 07 Promote Green Operations 47 Brand System 08 Strengthen Energy-Saving Management 48 Electromagnetic Radiation Management 50 Co-Construction of Infrastructure 50 Corporate Social Responsibility (CSR) Management 09 CSR Development Goal 10 Open Development and Win-Win CSR Organizational Structure 10 Cooperation 51 CSR Topics 11 Strategic Investment Cooperation 52 Communication on CSR 12 Develop With the Industry 54 Business Operation in Line with Laws and Regulations 13 Share Development, Boost Equality Party Organization Construction 14 and Harmony 56 Risk Control 15 Support Employees’ Development 57 Corporate governance in alignment with Help regional development 64 laws and regulations 15 Assist community development 67 Fighting Corruption and Upholding Integrity 15 Audit and Supervision 16 Workplace Safety 16 Looking Forward in 2016 71 Innovative Development for A Better- quality
    [Show full text]
  • Sustainable Development and Ending Poverty in Bashang: with the Observations for Thirty Years (C Case)
    Sustainable Development and Ending Poverty in Bashang: With the Observations for Thirty Years (C Case) 3. Growing Value of Blue Sky in 21st Century 3.1 Air Pollution Control and Duststorm in Beijing Beijing was one of the top dirty cities in the world based on the observations of the Global Environmental Monitoring System of UN. Beijing ranked 5th in total suspended particulates (TSP) in 1980s, windblown dust accounts for 40% to 60%. The greatest proportion of TSP in Beijing is windblown dust and coal fly ash (Daisey et al. 1983). Since coal accounts for a large part of the total energy consumption, there exists a continuing background particulate load which increases significantly during the winter. In 1993, Beijing failed being selected as host of the 2000 Olympic Games, to a certain extent, because of air pollution. In 2001, with the unbelievable effort in environmental improvement, Beijing launched a successful bid to host the 2008 Olympic Games. Strong duststorms frequently occurred in North China during 1970s. As shown in Figure 3-1, somehow the number of dusts-blown days kept decreasing in 1980s. However, duststorms turned stronger and more frequently in the first few years this century. (Zeng et al. 2006) There were 11 duststorms in the spring of 2000. The strongest duststorm occurred on March 19-20, 2002, affected areas of 1.4 million km², including Gansu, Inner Mongolia, Ningxia, Shanxi, Shannxi, Hebei, Beijing, and Tianjin. Figure 3-1 Dust Blown Days of 175 Weather Stations in North China (1961-2003) From 1999 to 2005, as industrial emission decreased, wind-blown dust caused serious pollution more frequently in Beijing.
    [Show full text]
  • China United Telecommunications Corporation's Communications On
    China United Telecommunications Corporation’s Communications on Progress (2006) June, 2007 Chairman’s statement The establishment of China Unicom is a symbol of the Chinese telecoms industry breaking away monopoly and introducing competition. Over thirteen years, as an emerging state-owned large-scale telecoms operating enterprise, China Unicom has made important contributions to service improvement, development promotion, harmony and prosperity of the Chinese telecoms industry. Since its establishment, and through painstaking efforts, restructuring and public offering, transcendent development as well as a comprehensive and in-depth transformation, China Unicom has entered a brand new development phase, having become a world renown telecoms operating enterprise that boasts about the world’s largest CDMA mobile communications network, the world’s third largest mobile user group and the world’s second largest CDMA user group as well as the sole carrier in China operating comprehensive telecoms businesses. Currently, our basic transport network has reached more than 300 areas and cities all over the country, CDMA and GSM mobile communications networks have already delivered roaming service to nearly 300 countries and regions, and the coverage range of long distance phone network and data communications network and Internet has been extended nationwide, providing quality comprehensive telecoms service for almost 150 million users. As the only telecoms operating enterprise currently in China that was listed in Shanghai, Hong Kong and New
    [Show full text]
  • 40641-013: Hebei Small Cities and Towns Development Demonstration
    Environmental Assessment Report Initial Environmental Examination Project Number: 40641-013 October 2013 People’s Republic of China: Hebei Small Cities and Towns Development Demonstration Sector Project (Zhangbei District Heating Component) Prepared by the Hebei provincial government for the Asian Development Bank (ADB) This Initial Environmental Examination is a document of the borrower. The views expressed herein do not necessarily represent those of ADB’s Board of Directors, Management, or staff, and may be preliminary in nature. 2 CURRENCY EQUIVALENTS (as of 10 May 2011) Currency Unit – yuan (CNY) CNY1.00 = $0.15 $1.00 = CNY6.5 ABBREVIATIONS ADB – Asian Development Bank AP – Affected Person COD – Chemical Oxygen Demand EA – Executing Agency EIA – Environmental Impact Assessment EMC – Environment Monitoring Center EMP – Environmental Management Plan EPB – Environmental Protection Bureau GDP – Gross Domestic Product IA – Implementing Agency IEE – Initial Environmental Examination MEP – Ministry of Environmental Protection NH3-N – Ammonia Nitrogen NOx – Nitrogen Oxide PMO – Project Management Office PPTA – Project Preparatory Technical Assistance PRC – People’s Republic of China SEIA – Summary Environmental Impact Assessment SPS – Safeguard Policy Statement ZCG – Zhangbei County Government WEIGHTS AND MEASURES Ha – hectare km – kilometer km2 – square kilometer m – meter m2 – square meter m3 – cubic meter m3/a – cubic meters per annum mg/l – milligrams per liter 3 mg/m – milligram per cubic meter mm – millimeter t/a – tons per annum 3
    [Show full text]
  • World Bank Document
    46923 Public Disclosure Authorized Chinese Practices of Ecological Compensation and Payments for Ecological and Environmental Services and its Policies in River Basins Submitted to the World Bank Public Disclosure Authorized By Haixia Zheng1, 2∗ (1. College of management, Beijing Union University; 2. Center for Public Disclosure Authorized Human and Economics Development Studies, Peking University) Lubiao Zhang (Department of International Cooperation, Chinese Academy of Agricultural Sciences) August, 2006 Public Disclosure Authorized ∗ Corresponding author: E-mail address: [email protected],[email protected] 1 1. Introduction................................................................................................................4 2. Methodologies............................................................................................................5 3 The review of Chinese practices of ecological compensation and payments for ecological and environmental services ..........................................................................6 3.1 The Background, concept and scope of PES ...................................................6 3.1.1 Theoretical basis and background of PES in China..............................6 3.1.2 The concept and scope of PES in China ...............................................7 3.1.3 The feasibility of PES and its development phase in China .................8 3.2 Payment for Watershed Services (PWS) in China...........................................9 3.2.1 State payment based on large
    [Show full text]
  • 2.10 Hebei Province Hebei Lianyu Industrial Group Co., Ltd.1, Affiliated
    2.10 Hebei Province Hebei Lianyu Industrial Group Co., Ltd.1, affiliated to the Hebei Provincial Prison Administration Bureau, has at least 33 prison enterprises Legal representatives of the prison company and their official positions in the prison system: Liu Jianmin, Chairman of Hebei Lianyu Industrial Group Co., Ltd.; Deputy Party Committee Secretary and Deputy Director of Department of Justice of Hebei Province; Party Committee Secretary and Director of the Hebei Provincial Prison Administration Bureau2 Hou Baochen, General Manager of Hebei Lianyu Industrial Group Co., Ltd.; Deputy Director of the Hebei Provincial Prison Administration Bureau The Hebei Provincial Prison Administration Bureau has 23 prisons and juvenile correctional facilities, in addition to the Jidong Branch of Hebei Provincial Prison Administration Bureau (overseeing 8 prisons) and two provincial criminal transfer stations,3 there are also 11 functional departments/offices in the bureau. No. Company Name of the Legal Person and Legal Registered Business Scope Company Notes on the Prison Name Prison, to which Shareholder(s) representative / Capital Address the Company Title Belongs 1 Hebei Hebei Provincial Hebei Provincial Liu Jianmin 53.33 Investment and management 51 Bachang Hebei Provincial Prison Administration Lianyu Prison Prison Chairman of Hebei million of prison enterprises. Street, Bureau5 is a deputy department-level Industrial Administration Administration Lianyu Industrial yuan Shijiazhuang administrative agency under the Group Co., Bureau Bureau Group Co., Ltd.; City management of Department of Justice of Ltd. Deputy Party Hebei Province. It is the institution Committee Secretary responsible for prison-related works in the and Deputy Director province, including 23 prisons and juvenile of Department of correctional facilities, in addition to the Justice of Hebei Jidong Branch of Hebei Provincial Prison Province; Party Administration Bureau.
    [Show full text]
  • 40641-013: Hebei Small Cities and Towns Development Demonstration
    Environmental Assessment Report Initial Environmental Examination Project Number: 40641-013 October 2013 People’s Republic of China: Hebei Small Cities and Towns Development Demonstration Sector Project (Longhua Miaoshan Waste Water Treatment Component) Prepared by the Hebei provincial government for the Asian Development Bank (ADB) This Initial Environmental Examination is a document of the borrower. The views expressed herein do not necessarily represent those of ADB’s Board of Directors, Management, or staff, and may be preliminary in nature. CURRENCY EQUIVALENTS (as of 10 May 2011) Currency Unit – yuan (CNY) CNY1.00 = $0.15 $1.00 = CNY6.5 ABBREVIATIONS ADB – Asian Development Bank AP – Affected Person LCG – Longhua County Government COD – Chemical Oxygen Demand EA – Executing Agency EIA – Environmental Impact Assessment EMC – Environment Monitoring Center EMP – Environmental Management Plan EPB – Environmental Protection Bureau GDP – Gross Domestic Product IA – Implementing Agency IEE – Initial Environmental Examination MEP – Ministry of Environmental Protection NH3-N – Ammonia Nitrogen NOx – Nitrogen Oxide PMO – Project Management Office PPTA – Project Preparatory Technical Assistance PRC – People’s Republic of China SEIA – Summary Environmental Impact Assessment SPS – Safeguard Policy Statement WEIGHTS AND MEASURES Ha – hectare km – kilometer km2 – square kilometer m – meter m2 – square meter m3 – cubic meter m3/a – cubic meters per annum mg/l – milligrams per liter mg/m3 – milligram per cubic meter mm – millimeter t/a – tons per
    [Show full text]